High performance long chain polyesters via melt copolymerization of cutin-inspired monomers†‡

Zewen Zhu, Joshua T. Damron, Jong K. Keum, Logan Kearney, Vera Bocharova and Jeffrey C. Foster
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引用次数: 0

Abstract

Biopolymers have exhibited potential as sustainable and circular replacements to existing commodity thermoplastic polymers. However, current biopolymers are limited by poor thermomechanical performance compared with their petroleum-derived counterparts. Herein, we report a simple strategy to achieve good mechanical properties in bio-inspired long-chain polyesters via melt copolymerization. By combining mono- and poly-hydroxyl functionalized long chain fatty acids, we show that tough, semi-crystalline materials can be produced that outperform related biopolymers in terms of their thermomechanical behavior. We envision that long-chain polyesters derived from hydroxylated fatty acids represent an ideal platform to create the next generation of commodity thermoplastics that possess advantaged properties, inherent biodegradability, and feedstock stability.

Abstract Image

通过受 cutin 启发的单体的熔融共聚实现高性能长链聚酯†‡
生物聚合物具有作为现有商品热塑性聚合物的可持续和循环替代品的潜力。然而,与石油衍生的同类产品相比,目前的生物聚合物受限于较差的热机械性能。在此,我们报告了一种通过熔融共聚实现生物启发长链聚酯良好机械性能的简单策略。通过结合单羟基和多羟基官能化长链脂肪酸,我们发现可以生产出坚韧的半结晶材料,其热力学性能优于相关的生物聚合物。我们认为,由羟基脂肪酸衍生的长链聚酯是制造下一代商品热塑性塑料的理想平台,这种塑料具有优良的性能、固有的生物降解性和原料稳定性。
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